Amusement device



June 11, 1935. P, J. MCCULLOUGH ET AL v 2,004,290

AMUSEMENT DEVICE Filed Dec. 16, 1952 5 Sheets-Shee, l

June 11, 1935. P J. MGCULLUGH ET AL 2,004,290

AMUSEMENT DEVICE Filed Dec. 16, 1952 5 Sheets-Sheet 2 June l1, 1935.

P. MCCULLOUGH Er AL' AMUSEMENT DEVICE Filed Dec. 16, 1952 5 Sheets-Sheet 3 if im WW ZM r/w %d I .y ad W i M June 11, 1935. P. J. MCCULLOUGH Er AL A 2,004,290

AMUSEMENT DEVICE Y Filed Dec. 16, 1952 5 Sheets-Sheet 4 `Fume 11, i935 P' J, MCGULLOUGH ETAL 2,004,290

AMUSEMENT DEVICE l Filed Deo. 16, 193.?, 5 Sheets-Sheet 5 Patented June 11, 1935 j at" UNITED 1 STATES s PATENT oFFlcE e AMUSEMENT DEVICE Paul J. McCullough and Alexander H. Sullivan,`

l j St. Louis County, Moe.

Applicaties Deeember 1e, 1932, serial1\I0.64`7,`.fii8

1o claims.

Among the objects of the inventionis the pro-A.

vision of a device having a steel anviland means for dropping a plurality of steel balls thereonto from a predetermined height, said anvil being manually adjustable in order to deect or bounce said steel balls in various predetermined directions.

Otherobjects of the invention are to provide "an amusement device including a manually ad-` justable anvil and a pluralityof loose steel `balls dropped thereagainstthere being a plurality of ball receiving pockets or instrumentalities so arranged that said balls can rebound from said anvil when the latter is properly adjusted 'intor one end of the pockets, the latter being so con-I structed and arranged that various degrees of4 skill are required to depositthe ballstherein.

Further objects of the invention are to provide anv amusement device of `the class described wherein the balls are caused to travel in a substantially vertical plane in e various predetermined directions and which device is so constructed and arranged that it occupies alminimum amount of floor space. Y

Still further objects of the invention are to provide an amusement device having a plurality of steel balls adapted to be dropped on to an anvil which is manually adjustable to deilect or rebound said balls in various selected directions for the purpose of depositing said balls into` suitable `pockets or receivers,'there beingmeans included in said device for collecting the discharged balls and feeding them in a vertical row l and singly to the point of release or discharge.

Other objects of the invention are to provide an amusement device for retaining the balls de` posited 'in various pockets and including means L associated with said first mentioned means and l operated by the deposit `of a suitable coin to release said balls.

Additional objects of the invention are to provide an amusement device which is highly entertaining and requires a certain degree of skill to deposit the balls in the respective containers and which is so constructed that it is protected against tampering with at `improper times. 1

With these and other objects in View, our invention consists in certain novel features of construction and arrangement of parts, hereinafter more fully described and `claimed and illustrated in the accompanying drawings, in which- Figure 1` is a front elevational view of `our device, partly in cross section.

Figure 2 is `a side elevational view thereof with parts ofthe casing removed and with certain other parts in cross section.

Figure 3 .is a top plan view of Figure l.

Figure lisan enlarged vertical cross section taken on line 4 4 of Figure 2.` L i Figure 5 is an `enlarged. fragmental view of thelower portion "of a chute. j e

` Figure 6 is a horizontal cross section taken Figure 7 is a; vertical cross section taken on` Figure 8 is a horizontal cross section' taken on` line 8--8 of Figurel and looking in the directionindicatedby arrows. 'i e Figure i9 is an enlarged'lragmental detail view,` partly in cross section, of the locking means for said device.

line IIl-I of Figure 9.` j j .e

gFigure 11` is a vertical cross section taken on line IIA-Il `of Figure 9 and showing `the casing in locked position.v

Figure 12 is `a j detail view ber shown inFigure 11 .with the casing member shownin dotted lines,

Figure"13 is an enlarged vertical cross section Figure, 16 is an enlarged vertical cross section taken on line l lic-I6 of Figure 6.

Figure 1'Z` is `anenlarged vertical cross section taken on line Iba-l1 of Figure r6.

`Figure .18 is anenlarged vertical cross section taken on line |8-|8 of'Figure 6.

`Figure. 19is an enlarged vertical cross section of the trough showing a ball positioned therein.

Figure is a vertical cross section taken on 26 e "of the locking mem` ago Figure 20 `is a top plan view of one of the` ball receivers or baskets. i i

nFigure 21 is a vertical. cross section taken on line 2I-.2Iof Figure20.

Figure 22 isa front elevational view of. another ball receiver orV basket. i

Figure 23` is a vertical cross Vsection taken on line 23-23 Aof Figure 22. i

Figure 24 vis an enlarged detail view of an auxiliary anvil used in connection with the basket shown in Figures 22 and 23-` Figure 25 is a vertical cross section of another ballreceivingbasket. l Y

Figure 26 is a vertical'cross still Aanother ballreceiver or basket.

section `showing tance thereabove.

Referring by numerals to the accompanying drawings, I indicates a base which can be supported on a counter or a stand (not shown). A glass cylinder o-r bowl II rests on and extends upwardly from said base and forms an enclosure for the device. Resting on said base ID and rlxed thereto is a bottom plate I2. A top plate I4 is supported on said bottom plate in spaced parallel relation therewith by means of four legs or brackets I5. These are preferably spaced peripherally `ecjuidistant about the axis of the device and have their ends I5a secured to respective plates in any suitable manner.

The various mechanisms used in the operation of the device and hereinafter more fully described are contained between said bottom and top plates. A casing I6 encloses said plates and the mechanisms contained therebetween and the lower edge of said casing is seated in an annular upwardly presented groove Ia formed in base I9, while the upper edge of the casing is curved inwardly to form a horizontally disposed flange Ia which is disposed a suitable distance above the top plate I4.

The lower end of glass bowl II rests on top plate I4 and has secured thereto a ring I'I. rIhe inwardly presented edge Ia of casing It overlies said ringand holds the glass bowl in position so that vvbefore said bowl can be disengaged from the device, casing I6 has to be removed. Ring. I1 can be secured in position to the lower edge of the bowl in any suitable manner, such as by set screws I8 screw-seated in said ring and engaging seats or depressions I9 formed in the edge of said bowl.

A stand pipe or vertically disposed delivery tube 29 is arranged in the rear portion of the device and extends upwardly from bottom plate E2 to top plate I4 and terminates a suitable dis- A floor or platform 2| is supported on top plate I4' and is arranged inclined from horizontal, sloping rearwardly toward an opening 22 formed in platform 2i adjacent to one side of stand pipe 20.

The upper end of pipe 20 is cut away at its` .suitable distance from the vertical axis of an anvil 24 which latter is arranged in the platform 2l adjacent to the forward` end thereof and substantially diametrically opposite to said stand pipe 20.

This anvil is substantially of semi-spherical shape with the flat base disposed substantially flush with the platform 2| and with the spherical portion loosely arranged in a ring bearing 25. This bearing is disposed on top plate I4 below said platform. A rod 26 is bent at right angle and has its vertical arm fixed to the underside of said anvil radially thereto and has its horizontal arm extending outwardly through opening 2l formed in the corresponding bracket I5. A handle 28 is xed to the projecting end of said arm and provides means for manipulating and adjusting said anvil so that the plane face thereof can be moved or adjusted to various angles from horizontal.

The disposition of the trough 23 and the anvil 2li relatively to each other is such that a steel ball 23 of predetermined diameter rolling down said trough drops therefrom on to said anvil at or near the center thereof. When the ball strikes the face of the anvil it bounces upwardly and the angular position of the anvil determines the direction in which the ball is propelled. As both the anvil and the balls are of steel the rebound of the latter is considerable.

Located within the glass enclosure II and supported on said floor 2i and top plate I4 is a plurality of ball receivers spaced suitably with respect to said anvil. These receivers are marked, respectively, A, B, C, D and E.

Each receiver consists of a base 29 from which project upwardly four rods 3@ which are spaced equidistant around the vertical axis of the receiver. A pin 3l is fixed to each base and extends downwardly therefrom and engages aligned apertures formed in the floor 2l and top plate I4, thereby holding the receiver in position. The rods 3G of the respective receivers are of various lengths so that said receivers are arranged at different heights. The upper end of each group of rods 3B is xed to the receiving or apertured member through which the ball is deposited in the receiver. The rods 3D are so arranged with respect to the diameter of the balls 28 that a number of said balls can be stored or held in a vertical row between said rods until released as hereinafter described.

The receiver A is in the form of a horizontally disposed disk or collar 32 having a central opening 33 through which a ball can enter and be deposited in the space formed by said rods. The size of the opening 33 is only slightly larger than the diameter of the ball and an accurate shot is required to drop the ball into this receiver. Preferably the upper face of the disk slopes away from the central aperture. This is the hardest shot to make and consequently the receiver grades the highest score mark where the latter are used.

The next receiver B consists of a basket 34 having a closed top 35 and having three spaced rings 35 held in spaced relation by pins 31. rIhe middle. ring is cut away as indicated at 33a to provide an entrance to the basket. Preferably said rings are of various diameters, gradually decreasing downwardly. The lowermost ring has xed thereto a collar 38 having a central aperture 39 and having its upper face sloping toward said aperture, as indicated at 4E?. The upper ends of the corresponding rods 3G are secured to said ring 38 and support said basket.

An auxiliary anvil il is arranged on plate I 4 and floor 2i in spaced relation with said basket or receiver B and the plane face 42 of said anvil is disposed in opposed relationship with the opening 35a of said basket. The purpose of the play is to adjust anvil 24 so that a ball 2B, upon striking said anvil, bounces therefrom in the direction of anvil 4I and strikes the face i2 thereof in such a manner that it is deflected in the direction of the basket B and enters the latter through the opening 36a.

The receiver C is located rearwardly of said auxiliary anvil 4I and to one side of stand This receiver consists of a basket 43 which is similar to basket 3ft but has no side opening and has an open top. A plurality of projections or pins 44 are arranged on the uppermost ring and some of said pins are straight and others are arched. These pins project upwardly and inwardly so as to reduce the size of the opening of said basket. An apertured disk 45, similar to disk 33. is fixed to the lowermost ring ofbasket 43` and has xed theretothe upper ends ofrods 30.

The receiver D is arranged on `the right side of` the stand pipe20 inthe `rearportion of the device. A basket46 of thetreceiver is similar in construction to the two basketspreviously described with the exception that the top is open and is devoidof `all` projections so that the opening of the basket is formed by the up` permostV ring.` This is the easiest shot to make` andconsequen'tly carries the lowest score mark.`

f to said chute and extends downwardly into engagement with floor 2I and top plate I4. vThe` chute is formed with `a 'loop'v52`and one end,`

or thereceiving end', of the chute extends upwardly as indicated at 53 while the other endv Vis presented towardreceiver41 as indicated at 54. When the vanvil 24"is properly `adjusted the ball uponl leaving saidanvil engages'the upper end 53 of the lchute, traverses the loop portion 52.@thereof and then shoots upwardly and forwardly from the end 54 thereof andenters the` receiver 41 throughtheopening 49.

Thus a plurality ofreceivers lis provided into` which the balls can be discharged by the proper Aadjustment of the anvil. 24. ,"The receivers vary` in design and varying degrees of` skill are re-` quired to deposit the balls therein. Preferably the lowermost portions 55 of chute 50`are cut away as indicated at 56 injorder to reduce the width of the chute at theselpoints and cause `the discharge of `balls `therefrom inthe event the toward the corresponding sleeve 51. All ofv the` balls donot complete their travel through the chute.` In this manner the chute is kept clear at all times and the travelfof the balls is not` impeded by a spent ball previously discharged Thel balls delivered l into;` each receiverare held between the respective rods 30 yby alpin 56. This -pin operates in a-sleeve51which is fixed at its lower `endto a support 58 and 'extends upwardly therefrom through `aligned apertures formedI in thetop plate I4 and oor. 2l. LThe upper end of"this.sleeve terminates flush or slightly below the `upper face of the correspondingbase 29. Preferably the inner, or lower end of each base` is bifurcated, as `at 29a, to. receive the upper projecting end of saidsleeve.`

As shown, `the upper face of `each base slopes receivers are so positioned that the tapered or lower ends of the base of eachreceiver and the corresponding sleeve '51j are presented` in the' direction of. the slope of floor 2l vand. toward` the opening 22. This assists in directing the balls 28 when released `from the receivers in traveling in a common direction, namely, toward opening22. 1

The other or high end of each' base 29 is tapered, as indicated at 29Min order to` elimi" nate danger of a ball `being accidentally caught or held by said end. In order to permit the discharge of balls 28 from between rods 30 the forward pair lof each set of rods is cut away as indicated at 30a" (see Fig. 15)'so that the lovvermo'st ball is free to move betweenk said rods and isheld or retained in position only by pin 56.

When the pins 56 occupy raised orv normal positions (shown in full lines in Figure 13), the balls 28` are 'retained between the respective v bars or rods 36.' When saidv pin 56 is lowered,

the balls 28 roll down the'inclined face of the base on to the floor 2| and hence towardyopening 22. l

Each support 58` is secured to the underside of plate I4, preferably by a screw 59. PivotallyV I mounted on each support near the outer `end thereof is a bell crank 6I).` The horizontal arm thereof is connected to thelower end of the corresponding pin 56, as at 6I, and the vertical arm is connected to one endof a horizontally' disk 66 is fixed on said shaft and connected to said disk as at 61 are the inner (see Fig. 8).` e I e When shaft 65y is operated in the direction indicatedV by arrow `inFigure- 8, all of `the`bell cranks 60 are moved `into positions shown in solid lines in Figure `13 and the pins 56 are raised.` i

When said shaft is actuated in the opposite directionj said bell cranks 66 are moved into positions shownin dotted lines and the pins 56 are loweredito allow the simultaneous discharge f balls28` from all, ofthe receivers.

The`discharged balls roll toward `opening, 22 and drop therethrough intoa pan 68. This pan is disposed below floor 2l 4and its open top is of substantiallyV theV same e area as said opening.

The bottom of thepan slopes toward one end ends of rods 62 69 and this end communicates with a tubular` member 10 whichcurves downwardly and has its lower end 1I openingintothe stand pipe 20 a slight distance'above the lower end thereof.

Movably disposed inJ pipe 20 below the` junction thereof with end 1I ris. a plunger 12 which is xed to one end of a lever 13. A vertically disposed slot 14 is fformed in the lower end of stand pipe `20 to provide operatingclearance, for said lever 13. A support 15 is xed o-n 'bottom plate I 2 and said` lever is pivotally mounted thereon by means of a-screw or pin 16. I The longer arm of said lever I,extends outwardly beson:

as f

yondthe plate I2 and terminates in a handle e 11by means of vwhich, said `lever' can be manually operated. A` coiled spring 18, having one endl anchored and having'v the other end engaging said lever, tends to"hold the latter in a position whereby the handle 11 is raised and plunger 12 depressed and disposed below the end 1I of trough 10. I? i Theballs 28 roll from pan68 through tube 10 and enter one by one through lower end 1I the pipe 26 immediately above plunger 12.A As the f lever 13 is actuated, plunger 12 moves upwardly, thereby raising the ball resting thereon. This plunger moves upwardly a suitable distance so that when thel ball is raised and the plunger returned to its depressed position there is suffirollers 119 and 80 which arel disposed a suitable` distance above plunger 12 andextend intosaid pipe 26 throughopenings formedtherein at diametrically opposed points.

is journaled in a `resilient member 89a. However, if desired, both rollers can be resi'liently mounted. These rollers are so arranged that the distance between the peripheries thereof is less than the diameter of a ball 28. Consequently as the ball is forced upwardly by plunger 'l2 past said rollers the resiliently mounted roller 8i) yields, permitting ball 28 to pass upwardly above said rollers. vThe roller then springs inwardly into its normal position and in correlation with roller I9 retains the ball 28 in raised position while the plunger 'l2 returns to its normal depressed position (see Fig. 7).

Thus a ball 28 is fed into pipe 20 at each 0peration of lever 13. Normally pipe 29 is lled throughout its entire height (from plunger 'l2 to trough 23) with a single row of4 balls 28 and when said plunger is raised to move the lowermost ball past rollers 19 and 80 the uppermost ball of the column is displaced and rolls down the trough 23 and drops therefrom onto anvil 24.

If, for instance, it is desired to deposit a ball in receiver A and the anvil is properly adjusted, said ball upon rebounding from anvil 24 enters said receiver through aperture 33 and drops between rods 38 and is retained therein by the corresponding pin 56. lf, however, the anvil is not properly adjusted, the shot is a miss and the ball drops on to floor 2l and rolls rearwardly through opening 22 into pan G8 in readiness for subsequent operations.

The balls deposited in the Various receivers are held therein until the pins 56 are depressed. To accomplish this, shaft 65 is operated in any suitable manner (as, for instance, by a suitable coin vending mechanism hereinafter more fully described) in a direction opposite to that indicated by arrow in Figure 8. This simultaneously operates all of the bell cranks, causing them to withdraw or lower pins 56 whereupon the trapped balls roll down the inclined faces of bases 29 outwardly through the openings formed nby cut-away portions 38a on to floor 2l, thence through openings 22 into pan. 68.

The lower end 'H of tubular member 'I9 and the lower end of stand pipe 29 are preferably held in position by a support 8| which is se- `-,cured to plate I2. Loosely mounted in said support below the end 'Il is a shaft-82 one end of which is bent, as indicated at 83, to engage the short arm of lever 13. The other end of said shaft is bent upwardly, as indicated at 84, and

,connected to the end thereof is a pin 85 which extends therefrom into pan 68 near the end 69 thereof. the balls contained in pan 68 and prevent them from becoming jammed at the entrance to tubuilar member 10. At each operation of the lever,

as the plunger 12 moves upwardly, shaft 82 is rocked away from stand pipe 29, causing pin to withdraw from end 69, thereby permitting a ball to enter tubular member 19. Upon the return stroke of the lever, shaft 82 is rocked in the opposite direction, causing pin 85 to enter said pan.

In order to insure proper discharge of balls 28 into trough 23 and prevent sticking of the 'balls or violent movement thereof upwardly beyond trough 23, as when lever I3 is improperly actuated, a member 86 is loosely mounted on the upper end of stand pipe 29 and serves to dampen the sudden violent discharge of the balls l`therefrom. This member, which is of inverted Roller 'I9 is j0ur; naled in a stationary member 79a. and roller 80 j The purpose of this pin is to agitate Y U-shape, straddles the upper end of saidstand pipe and is slidably mounted by means of a rearward extension 81 in a bearing 88 formed on the rear side of stand pipe 29. There is sufcient clearance between the trough opening and the member 86 so that under normal conditions the uppermost ball can be discharged without affecting said dampening member. If, however, the column of balls in stand pipe 20 is moved upwardly beyond their normal distance, as by violently striking the lever '13, the uppermost ball will engage said member- 86 and the weight of the latter will check said movement and will guide the uppermost ball into the trough 23.

Thefdevice is operated upon the deposit of a coin in a suitable coin mechanism 98. This mechanism extends inwardly through casing I6 and includes a sliding member 9|, the outer end of which is provided with a handle 92 and has a coin aperture 93 formed adjacent thereto. A coin is deposited in said aperture and the member Sl is pushed inwardly.

This coin mechanism is so constructed that member 9| is compelled to complete its inward movement and deposit the coin Within the casing before the actuation of the device can take place.. When said member 9| is pushed a predetermined distance inwardly, the coin is discharged therefrom and falls into a compartment X formed in casing I6. This compartment is formed by an angle iron 94 which is secured to iloor l2 to one side of shaft 65 and forms a partition wall which divides said oor into said compartments X and Y. Compartment X receives the coins and contains shaft 65 and parts associated therewith, including the coin mechanism. Compartment Y contains lever 13, magazine tube 20, and delivery tube 'I9 and parts associated therewith.

As stated before, the device is operated by means of lever 13 and a ball is discharged from pipe 29 and dropped on to anvil 24 at each manual depression of said lever. A predetermined amount of balls (in the present case, 12 in number) is released into the lower portion of tube 'i8 and these are admitted one by one into the lower end of magazine tube 20.

At each operation of lever 13, the plunger end 'l2 thereof engages the lowermost ball and raises the whole column of balls contained in the magazine piece until the uppermost ball is clear of the cut-away portion of the upper end of said piece 20 and is free to roll on to the trough 23.

The admission of balls 'into the lower portion of tube 28 is controlled by a rod 95 which operates in a slot 96 formed in said tube. One end of this rod is connected to an arm 91 which is fixed to a rock shaft 98. This shaft is journaled in bearings 99, preferably arranged on or adjacent to angle iron 94.

When said rock shaft 98 is operated in one direction (indicated in dotted arrows in Figures 15 and 17) rod 95 is moved awayfrom tube lll, thereby opening the passage therein and permitting the requisite number of balls to pass from the upper portion of said tube and from pan 68 into the lower portion of said tube. W hen said rock shaft is moved in the opposite direction, rod reenters said tube and closes the passage of balls therethrough.

The coin mechanism is correlated with rock shaft 98 so that rod 95 normally occupies a position within tube 'l0 so as to prevent passage of balls therethrough. Said shaft 98 is operated inthe opposite direction to withdraw rod 95 .past `retaining rollers 19 and 80. `whole column of balls in said tube20 is moved `from tubet10 and permit passage of balls only` Vwhen said coin mechanism is coin-operated` This is accomplished through the medium of a curved arm ked to shaft 98 intermedi- -atethe ends thereof and projecting therefrom `toward the inner end of said coin mechanism f and aroller [0| carried by said innerend-of said `coin mechanism and adapted to engage said arm H30 and rock said shaft Sli-from normal position upon the actuation of saidcoin mechanism. As shown, shaftv 08` is arranged preferably at right angle to the line` of movement of member 0| and parallel with roller |0|L The latter is lpreferably mounted in a bracket |02 .which is fixed to the inner end ,of memberil and moves in a horizontal `plane in the pathlof movement of arm |00.

When member `9| is pushed inwardly, `roller V||l|` engages arm |00 and `causes shaft 98 to 1rock, thereby causing arm `91 `to assume positions shown indotted lines in Figure 16 in which Iposition rod 95 is `withdrawn from tube 10 a sufncient distance to` permit a predetermined `amount of balls to roll into the lower Vportion of said tube. In `the present instance, twelve balls are operated at each insertion'of a com 'and consequently `the lower `portion of tube 10 `(that is, from slot 96 to junction withitube 20) is of a length to aocommodateeleven balls. The foremost of the released balls `enters the` lower Iend of magazine tube 20 immediately above the plunger end 12 of lever 1? so that only eleven balls have to be accommodated inthe lower portion of the tube 10. As lever 13 is operated, this foremost ball is forced upwardly in tube `20 Thus the upwardly the distance equivalent to the diameterA of a ball, thereby displacing the uppermost ball oi said column and causing it to be released from the `magazine tube 20.

To. prevent` additional balls from rolling past slot 95 into `the lower portion of tube 10,rod is returned to its normal positionin said tube simultaneously with lthe operation, of lever 13.` i To this end shaft 98 `is provided atits outer end with a curved arm |04 which, when said shaft 08 is actuatedv or depressed, moves under thehandleend of said lever13, as indicated in dotted lines in Figure 17. When said `lever is depressed, it bears against said arm |04 and forces itout of the path of said lever, thereby forcing it and shaft 98 to normal positions shown in full lines in Figure 1'1. This, `of course,`

causes arm 91 to move to normal position, forcingrod 95 into tube 10 thereby closing the passage, while the lower portion of said tube still containsits full quota of balls (11 innumber).

The curved arm |04 serves another purpose and that is to prevent operation of lever 13 while the coin member 9| occupies its .innermost position. If said member 9| is held stationaryv in its moved4 position withtheobject of keeping the passage in tube open so that additional `balls `can pass downwardlmthe `arm `|00 bears against roller 10| and prevents operation of shaft 38 so that the curved arm |04 is locked in its displaced position and prevents depression oi' lever 13. As soon as member 9| is released, shaft 08 is free to rcck,'whereby rod 95 reenters tube 10 simultaneously withl the displacement Hof arm |04.

The `coin mechanismV is supported in position within casing' ||i` in any `suitable manner and preferably bymeans of supports |05and |06 Whichare arranged on `hoor` 2 andextend upwardly a suitabler distance therefrom, support |05 being arrangedfadjacent the inner end, and Vsupport |06 adjacent: to the casing and having a yportion ||l6a` extending `outwardly therefrom. 1

.As mentioned before, such balls 28,?as aredeposited in various receivers Ato D,iinclusive,` by

i the `.manipulation ofvanvil 24, are retained between wires30 rof the respective receivers by upwardly projecting pins 56 until all oftheballs have been played. These pins which are operatively associated with bell cranks 6|] are simultaneously retracted to release all ofthe-trapped balls. .TheJoperation of said bell cranks is effected by rods 52 which are connected to disk 66- xed 4to vertically disposed shaftz5.

The lftrapped balls 28 are released simultaneously by the operation of shaft |55 upon the next operation ofithewcoinmechanism 90. A roller `|01 is journaled on the inner end of sliding member 9| :and projects upwardly therefrom. Aihorizontally disposed plate |08 is secured to the upperzend of shaft `65 above said sliding member and is providedwith van open-ended slot |09 `which is in engagement with said roller |01; Normally saidplateoccupies the position as shown in dotted lines inFigure Gand is operated upon theinitial movement of the sliding member 9|. i As shown in this` ligure, this sliding, member is shown moved inward a sufficient distance to discharge thepcoin and release the trapped balls `28 `but before the actuation` of shaft 98. Theportion |08@ of the plate iscuti away `to Vpermit continuation of the *inward movement` of roller |01 without further affecting said plate 08. The opposite end of said plate is provided with a downward extension, |081) `which vwhen said plate is in vactuated'position bears against the side of support |05 and prevents uoverrunningV of said,V plate.

. On the return movement of memberrlll, roller |01 Vengages extension` |08c of the plate formed on the opposite side of slott|09 `and moves said plate to normal position,.thus actuating, through connecting rods 62, pins 56 so that theyassurne extended or ball-retaining positions (see Figure ,In order to prevent unauthorized removal of `said `bowl and to seal access to the parts` enclosed thereby, vsaid .casing is locked in position on the, `device inv such a manner that only a person having the necessary key can release said casing. 5 In this manner the operating mechanism disposed between the plates l2 and I4 is also protected.

A tumbler lock of standard construction is ksecured to base plate I2 and has its key end exposed through'a vertically disposed downwardly openingnotchm |2` formed in casing i6. An

upwardly projecting plate f||l| is oscillatably mounted on thebarrel of said lockj and is operatively ass'ociated 'withfv the" lock mechanism and'thekeyc is removed, said plateis positioned rearwardlyof an aperture formed insaid annular casing |6 has to be lifted upward over said bowl.

'whereby when the lock occupies locked position l casing. 'I'his aperture is arranged in axial alignment with the operating head ||6 `of a rod I|,1 so that a suitable tool, a screw in the instant case, can be inserted through said aperture into engagement with saidy head to operate said rod when plate I|4 occupies displaced position.

`When, however, said plate occupies locked position, it is interposed between saidy aperture and said head ||6, thereby preventing vengagement of the tool with said head.

This rod ||1 is shouldered for rotative but non-longitudinal movement in a downwardly presented bearing ||8 formed on one end of plate IIS. This plate is arranged ony the other .side of `plate I4 and has its other end formed tubular, as indicated at |20 and slidably receives end |2| .of a rod |22. This end |2| is formed with a screw-threaded bore in which is received the screw-threaded end |24 of rod ||1. The other end |25 of rod |22 is pivotally connected to one end of a bellcrank |26. A screw |21 is fixed to the underside of plate |14 and loosely supports said bell crank in position. The ,other end of said .bell crank forms an extension |28 which terminates adjacent to the periphery of said plate I4 and is adapted to be moved in juxtaposed .relation with a notch |29 formed in the edge of .said plate.

A bell crank v|3|| `is mounted on the underside of plate I4 by a screw |3| and one end of said .bell crank is pivotally attached to plate I I9 -as indicated at |32. The other end of said bell crank forms an extension |34 which is adapted to close a notch |35 also formed in the edge of plate I4.

These notches |29 and |35 are arranged substantially in diametrically opposed relation with each other and in vertical planes, respectively, with ribs |36 and |31, formed on casing I6. These ribs are vertically disposed and project inwardly from said casing and terminate short 4of plate I4 Aand the YextensionsI |28 and |34 are movable into vpositons between said ribs and their respective notches, thereby preventing upward vmovement or removal of the casing. The collar |1 which is fixed to the lower end of glass bowl II lcan be provided with notches 11a so as to provide clearance for the respective ribs J|36 and |31, as shown in Figure l1. However, if desired, collar |1 can be made thinner and the ribs reduced in depth so that suflicient operating clear?- vance exists therebetween. Preferably the head IIB is enclosed by a socket |38 which serves as a guide in inserting the screw driver and also permits the operation of said head only by a tool of predetermined size.

'When the device is locked, the plate ||4 occupies position shown in 'Figure 10. When it is desired to have access to the operating mechanism or to remove the glass bowl, the lock is operated by the proper key to oscllate plate ||4 to one side as shown in Figure 9. This permits insertion of the proper tool through aperture ||5 for engagement with the operating head IIB so that rod can be turned'to move 'rod |24 longitudinally in proper direction to operate bell cranks |26 and I 30. When said bell cranks occupy locked positions, they are :interposed between the ribs |36 and |31 and their respective notches, as shown in Figures 11 and 12. When rod '|24 is actuated, said bell cranks are moved into positions away from their respective notches, as shown in Figure 8, whereupon `out deposit of a coin in aperture S3.

Athe ribs |36 .and |31 can :enter the respective notches vand the casing I6 lcan be raised upywardly.

The receivers can be cleared and the trapped balls28 released Without requiring the insertion .i

vof the coin in member 9|. The'latter is free to move inward for a predetermined distance with- This inward movement is suilicient to operate pins 56 but not shaft 98 and the extent of this inward movement is shown in Figure 6.

To operate the device, a suitable coin is inserted in aperture 93. If member 9| occupies position as shown in Figure 6, it is moved outward to its full extent so as to expose said aperture.

When the coin is deposited, member 9| is pushed inwardly. The coin mechanism 90 is so 4constructed that upon the insertion of a coin in member 9| Vthe latter, when actuated, is locked against retrograde movement and is compelled to` complete 'its inward stroke before .being released. This inward movement rocks shaft 98 and withdraws rod 95 from tube 13 and at the Sametime places arm |54 under lever13. A suitable number of balls drop into the lower `portion of trough 10 and the rst or lowermost ball enters the lower end of pipe 2|] at a point above the plunger end 120i lever 13. When the latter is actuated, it engages curved arm |04 and cams or forces said arm out of its path, thereby causing operation of shaft ,98 in opposite direction yand restoring it and rod 95 to its normal positions. Simultaneously with this, the plunger end 12 of said lever is moved upwardly forcing ythe ball which entered the pipe upwardly in .said pipe into engagement with the lowermost Yball of the column of balls contained in said pipe. As this pipe always contains a full number Aof balls, .the addition of this ball upon the upward movement of said plunger end 12 raises the entire column of balls a distance equivalent .to the diameter of one ball. Thus the upperrinost ball is discharged from said pipe and is caused to roll downwardly in trough 23. The ball after leaving said trough strikes anvil 24 4and rebounds therefrom and either enters one of the receivers or drops on to the iioor 2|. If ythe ball is discharged on to the floor it rolls rearwardly and enters, through opening 22, pan -68. Thev balls trapped by the receivers when released therefrom by the actuation of pins 56 similarly Vroll rearwardly and enter pan 68 through said opening 22. From this pan the balls enter the upper portion of pipe 10 and the cycle of operation isI repeated. Rod 85 which Iextends 'into Vsaid pan Vadjacent to the junction thereof with the open end of pipe 16 is actuated at each 4operation of lever 13 and serves to agitate the balls contained' in said pan and also prevents jamming of the balls at the point of entrance to pipe 1D. y

Our device is so constructed that it requires various degrees of skill to play it successfully, its operating mechanisms are so arranged that the danger of the device getting out of order is reduced to minimum, and the device is protected against tampering.

While we have shown and described the preferred form of our invention, it is obvious that various changes in the construction and arrangement of parts can be made and substituted for those herein disclosed without departing from the spirit of the invention.

`as to cause said balls to` reboundinto any one of said ball receivers. i

2. An amusement device comprising an anvil having an impact face, said anvil being mounted for adjustment so as to vary the inclination of said impact face, a plurality of steel balls, a plurality of` ball receivers spaced suitably from said anvil, means for discharging said steel balls against said anvil from a point spaced therefrom whereby said balls are caused to rebound, the

adjustment of said anvil being such as to cause said balls to rebound into any one of said ball receivers, and means for returning the spent balls to said ball discharging means.

3. An amusement device comprisingv a support having an inclined door, an anvil Aadjustably mounted in said support and` having its face presented upwardly through an opening formed in said floor, a plurality of steel balls, and means for raising said balls a suitable distance above said anvil and discharging them singly thereunto, said anvil being adjustable to vary the direction in which said balls rebound therefrom.

4. An amusement device comprising a support having an inclined iloor, an anvil adjustably `mounted in said support and having its'face presented upwardly through anopening formed in said floor, a plurality of ball receivers mounted:

on saidl iloor and extending upwardly therefrom in spaced relation withsaid anvil, a glass bowl arranged on said supportV and extending 'upwardly from said floor and enclosing said ball receivers and said anvil, and means for raising said balls a suitable distanceabove said anvil and discharging them thereagainst, said anvil being` adjustable tov cause said balls to rebound in the direction of any one of said receivers.

5. An amusement device of the class described including an adjustable steel anvil, a plurality of ball receivers arranged in spaced-apart rela-` tionship with said anvil andwitheach other, and a plurality of steel `balls adapted to `be dropped upon said anvil and deflected thereby in suitable directions towards the various ball receivers.

6. An amusement device comprising a support having a loorinclined from horizontal, an anvil mounted in said support and having its impact face presented upwardly through fan opening in said oor, a plurality of steel balls, a receptacle for said balls disposed below the discharge opening formed in the lowermost portion of said floor, and means for raising said balls from said receptacle to a point above said anvil and discharging them singly thereagainst,

said anvil being adjustable whereby the direction of rebound of said balls can be regulated.

'7. An amusement device comprising a support having a floor inclined from` horizontal, an vanvil mounted in said support and having its impact face presented upwardly through an opening in said floor, a'plurality of steel balls,

a receptacle for said balls disposed below the discharge opening formed in the lowermost portion of said lloor, means for raising said balls i from said receptacle to a point above said anvil and discharging them singly thereagainst, and a plurality of ball receivers arranged on said latter being adjustable whereby the direction of rebound of said balls can be regulated to cause said balls to be deposited in any one of said receivers. i i

8. An amusement` device comprising a support having a iloor inclined from horizontal, an anvil mounted in said support and having its impact face presented upwardly through an opening in said floor, a plurality of steel balls, areceptacle for said balls disposed below the discharge opening formed in the lowermost portion v,of said `floor in spaced relation with said anvil, the i floor, means for raising said balls from said 1 receptacle to a point above said anvil and discharging them singly thereagainst, a plurality of ball receivers arranged on said floor in spaced relation with said anvil, the latter being adjustable whereby the direction of rebound of said balls can be regulated to cause said balls to be deposited in any one of said receivers, and means associated with each receiver for retaining the balls deposited therein, said means being operable to release saidballs whereby the latter roll lupon said inclined floor toward said discharge `openinginto the receptacle. l 9. In an amusement device of the class de-` scribed the combination of a support provided bowl enclosing said upper compartment, a ball discharging means and Ya ball receiving means arranged in said upper compartment, mechanism in said lower compartment for conveying balls to said ball discharging means, a circular casing enclosing said lower compartment, said casing having its upper end engaging the lower end of said bowl whereby the latter cannot be removed without rst removing said casing, and means in said lower compartment for securing said casing against removal.

10. In an amusement device of the class described, the combination of a` support provided with a lower and anA upper compartment, a

glass bowl enclosing said upper compartment,

`arranged inV said upper compartment, mechanism insaid lower compartment `for conveying ,ballsv to said ball discharging means, a circular `with a lowerand an upper compartment, a glass casing enclosing said lower compartment, said casing having its upper end anged laterally for engaging said ring whereby said bowl cannot be removed without` first removing said casing, means in said lower compartment for securing said casing against removal, said means being adapted to be operated by a* tool inserted through an aperture in said casing, a plate arranged in said lower compartment and movable into position to close the communication `between said aperture and said securing means,

and a tumblerlock for operating said locking it in closing position. l

l, ALEXANDER H. SULLIVAN.

PAUL J. MCCULLOUGH.

plate and 

